Background and study aims Endoscopic negative pressure therapy (ENPT) has been developed to treat gastrointestinal leakages. Up to now, ENPT has usually been performed with open-pore polyurethane foam drains (OPD). A big disadvantage of the OPDs is their large diameter. We have developed a new, small-bore open-pore film drainage (OFD). Herein we report our first experience in a case series of 16 patients. Patients and methods OFD is constructed with a drainage tube and a very thin double-layered open-pore drainage film (Suprasorb CNP, Drainage Film, Lohmann & Rauscher International, Germany). The distal end of the tube is wrapped with only one layer of film. OFD is placed into the gastrointestinal leakage site with common endoscopic techniques. The tube is connected to an electronic vacuum device and continuous negative pressure of –125 mmHg applied. Results From 2013 to 2016, 16 patients were treated with the new OFD device. In 10 patients, transmural intestinal defects (4 esophageal, 4 rectum/colon, 1 duodenal, 1 pancreatic cyst) were closed with ENPT in median time of 12 days (range 3 – 34 days). Five of the 10 patients were treated solely with OFD devices. In five patients ENPT started with ODP and changed to OFD when the cavity was shrunken to a channel with a small opening. In four patients postoperative gastric reflux was eliminated for 5 to 16 days. Conclusions Small-bore OFD opens up promising new treatment options within ENPT. OFD can be used in endoscopic closure management of intestinal leakages in the upper and lower gastrointestinal tract. Gastric reflux can be eliminated in an active manner. OFD can be inserted nasally. OFD may be an adequate substitute for OPD, especially when placement of the larger OPD is difficult.
Zusammenfassung Einleitung Anhand einer Fallserie berichten wir über unsere ersten Erfahrungen mit einer intrathorakalen Unterdrucktherapie (ITNPT) in der stadienadaptierten Therapie des Pleuraempyems (PE). Material und Methoden Die ITNPT ist eine Weiterentwicklung der Unterdrucktherapie für die intrathorakale Anwendung. Nach thoraxchirurgischem offenen Débridement wurde ein intrathorakaler Unterdruckverband installiert. Als Drainageelemente verwendeten wir eine dünne offenporige doppellagige Drainagefolie (OF) mit offenporigen Polyurethanschäumen (PUS). Ausschließlich die OF wurde in direktem Kontakt zum Lungenparenchym angelegt. Die Unterdruckerzeugung erfolgte mit einer elektronischen Pumpe (kontinuierlicher Sog, −75 mm Hg). In der Revisionthorakotomie wurde je nach Lokalbefund die ITNPT beendet oder fortgeführt. Ergebnisse Es wurden 31 Patienten im PE-Stadium II und III behandelt. Die ITNPT erfolgte bereits beim Primäreingriff (n = 17) oder bei Revision (n = 14). Die ITNPT erfolgte über einen Dauer von m = 10 Tagen (2–18 Tage), Wechselintervall m = 4 d (2–6 d). Die intrathorakaler Unterdruckverband-Anlage wurde in m = 3,5 (1–6) mal vorgenommen. Die Empyemhöhle verkleinerte und reinigte sich unter dem Sog kontinuierlich. Die OF hat ein minimales Eigenvolumen bei maximaler Resorptionsoberfläche. Nach Anlage des Unterdrucks besteht kein intrathorakales Totvolumen, das Parenchym kann sich entfalten. Diskussion Die schonenden Materialeigenschaften der OF ermöglichen die ITNPT zur Behandlung des Pleuraempyems. Es ist eine gezielte lokale intrathorakale Sanierung des septischen Focus in Ergänzung zur operativen Therapie möglich. Das Behandlungsregime erfordert wiederholte operative Verbandswechsel. Die Methode ist geeignet zur Behandlung komplizierter PIeuraempyeme im Stadium II und III. Konklusion Die OF kann als intrathorakales Drainageelement zur ITNPT bei Pleuraempyemen verwendet werden. Das Indikationsspektrum der Unterdrucktherapie erweitert sich um diese neue Anwendungsoption.
Background We report our initial experience with intrathoracic negative pressure therapy (ITNPT) in the stage-adjusted treatment of pleural empyema (PE) based on a case series. Materials and methods ITNPT represents a further development for intrathoracic use. After thoracic surgical open debridement, an intrathoracic negative pressure dressing was inserted. The drainage elements were a thin open-pore double-layer drainage film (OF) with open-pore polyurethane foams (PUF). Only the OF was placed in direct contact with the lung parenchyma. Negative pressure was generated using an electronic pump (continuous suction, −75 mm Hg). In revision thoracotomies, ITNPT was stopped or continued depending on local findings. Results In total, 31 patients with stage II and III pleural empyema underwent ITNPT, which was administered during the primary procedure (n = 17) or at revision (n = 14). Treatment duration was a mean of 10 days (2–18 days) with a mean change interval of 4 days (2–6 days). Intrathoracic negative pressure dressings were applied a mean of 3.5 (1–6) times. The empyema cavity continuously reduced in size and was cleansed by the suction. The OF has a minimum intrinsic volume with maximum absorption surface. Once negative pressure is established, there is no intrathoracic dead volume and the parenchyma can expand. The protective material properties of OF make ITNPT suitable for the treatment of pleural empyema. Targeted local intrathoracic drainage of the septic focus is a possible adjunct to surgery. The surgical dressings must be changed repeatedly. The method is suitable for the treatment of complex stage II and III pleural empyemas. Conclusion The OF can be used as an intrathoracic drainage element for ITNPT in pleural empyema. This new application option expands the range of indications for negative pressure therapy.
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